Source code for sas.qtgui.MainWindow.GuiManager

import sys
import os
import subprocess
import logging
import json
import webbrowser
import traceback

from PyQt5.QtWidgets import *
from PyQt5.QtGui import *
from PyQt5.QtCore import Qt, QLocale, QUrl

import matplotlib as mpl
mpl.use("Qt5Agg")

from twisted.internet import reactor
# General SAS imports
from sas import get_local_config, get_custom_config
from sas.qtgui.Utilities.ConnectionProxy import ConnectionProxy
from sas.qtgui.Utilities.SasviewLogger import setup_qt_logging

import sas.qtgui.Utilities.LocalConfig as LocalConfig
import sas.qtgui.Utilities.GuiUtils as GuiUtils

import sas.qtgui.Utilities.ObjectLibrary as ObjectLibrary
from sas.qtgui.Utilities.TabbedModelEditor import TabbedModelEditor
from sas.qtgui.Utilities.PluginManager import PluginManager
from sas.qtgui.Utilities.GridPanel import BatchOutputPanel
from sas.qtgui.Utilities.ResultPanel import ResultPanel

from sas.qtgui.Utilities.ReportDialog import ReportDialog
from sas.qtgui.MainWindow.Acknowledgements import Acknowledgements
from sas.qtgui.MainWindow.AboutBox import AboutBox
from sas.qtgui.MainWindow.WelcomePanel import WelcomePanel
from sas.qtgui.MainWindow.CategoryManager import CategoryManager

from sas.qtgui.MainWindow.DataManager import DataManager

from sas.qtgui.Calculators.SldPanel import SldPanel
from sas.qtgui.Calculators.DensityPanel import DensityPanel
from sas.qtgui.Calculators.KiessigPanel import KiessigPanel
from sas.qtgui.Calculators.SlitSizeCalculator import SlitSizeCalculator
from sas.qtgui.Calculators.GenericScatteringCalculator import GenericScatteringCalculator
from sas.qtgui.Calculators.ResolutionCalculatorPanel import ResolutionCalculatorPanel
from sas.qtgui.Calculators.DataOperationUtilityPanel import DataOperationUtilityPanel

import sas.qtgui.Plotting.PlotHelper as PlotHelper

# Perspectives
import sas.qtgui.Perspectives as Perspectives
from sas.qtgui.Perspectives.Fitting.FittingPerspective import FittingWindow
from sas.qtgui.MainWindow.DataExplorer import DataExplorerWindow, DEFAULT_PERSPECTIVE

from sas.qtgui.Utilities.AddMultEditor import AddMultEditor
from sas.qtgui.Utilities.ImageViewer import ImageViewer
from sas.qtgui.Utilities.FileConverter import FileConverterWidget

logger = logging.getLogger(__name__)


[docs]class GuiManager(object): """ Main SasView window functionality """ def __init__(self, parent=None): """ Initialize the manager as a child of MainWindow. """ self._workspace = parent self._parent = parent # Decide on a locale QLocale.setDefault(QLocale('en_US')) # Redefine exception hook to not explicitly crash the app. sys.excepthook = self.info # Add signal callbacks self.addCallbacks() # Assure model categories are available self.addCategories() # Create the data manager # TODO: pull out all required methods from DataManager and reimplement self._data_manager = DataManager() # Create action triggers self.addTriggers() # Currently displayed perspective self._current_perspective = None self.loadedPerspectives = {} # Populate the main window with stuff self.addWidgets() # Fork off logging messages to the Log Window handler = setup_qt_logging() handler.messageWritten.connect(self.appendLog) # Log the start of the session logging.info(" --- SasView session started ---") # Log the python version logging.info("Python: %s" % sys.version) # Set up the status bar self.statusBarSetup() # Current tutorial location self._tutorialLocation = os.path.abspath(os.path.join(GuiUtils.HELP_DIRECTORY_LOCATION, "_downloads", "Tutorial.pdf"))
[docs] def info(self, type, value, tb): logger.error("".join(traceback.format_exception(type, value, tb)))
[docs] def addWidgets(self): """ Populate the main window with widgets """ # Preload all perspectives self.loadAllPerspectives() # Add FileDialog widget as docked self.filesWidget = DataExplorerWindow(self._parent, self, manager=self._data_manager) ObjectLibrary.addObject('DataExplorer', self.filesWidget) self.dockedFilesWidget = QDockWidget("Data Explorer", self._workspace) self.dockedFilesWidget.setFloating(False) self.dockedFilesWidget.setWidget(self.filesWidget) # Modify menu items on widget visibility change self.dockedFilesWidget.visibilityChanged.connect(self.updateContextMenus) self._workspace.addDockWidget(Qt.LeftDockWidgetArea, self.dockedFilesWidget) self._workspace.resizeDocks([self.dockedFilesWidget], [305], Qt.Horizontal) # Add the console window as another docked widget self.logDockWidget = QDockWidget("Log Explorer", self._workspace) self.logDockWidget.setObjectName("LogDockWidget") self.logDockWidget.visibilityChanged.connect(self.updateLogContextMenus) self.listWidget = QTextBrowser() self.logDockWidget.setWidget(self.listWidget) self._workspace.addDockWidget(Qt.BottomDockWidgetArea, self.logDockWidget) # Add other, minor widgets self.ackWidget = Acknowledgements() self.aboutWidget = AboutBox() self.categoryManagerWidget = CategoryManager(self._parent, manager=self) self.grid_window = None self.grid_window = BatchOutputPanel(parent=self) if sys.platform == "darwin": self.grid_window.menubar.setNativeMenuBar(False) self.grid_subwindow = self._workspace.workspace.addSubWindow(self.grid_window) self.grid_subwindow.setVisible(False) self.grid_window.windowClosedSignal.connect(lambda: self.grid_subwindow.setVisible(False)) self.results_panel = ResultPanel(parent=self._parent, manager=self) self.results_frame = self._workspace.workspace.addSubWindow(self.results_panel) self.results_frame.setVisible(False) self.results_panel.windowClosedSignal.connect(lambda: self.results_frame.setVisible(False)) self._workspace.toolBar.setVisible(LocalConfig.TOOLBAR_SHOW) self._workspace.actionHide_Toolbar.setText("Show Toolbar") # Add calculators - floating for usability self.SLDCalculator = SldPanel(self) self.DVCalculator = DensityPanel(self) self.KIESSIGCalculator = KiessigPanel(self) self.SlitSizeCalculator = SlitSizeCalculator(self) self.GENSASCalculator = GenericScatteringCalculator(self) self.ResolutionCalculator = ResolutionCalculatorPanel(self) self.DataOperation = DataOperationUtilityPanel(self) self.FileConverter = FileConverterWidget(self)
[docs] def loadAllPerspectives(self): # Close any existing perspectives to prevent multiple open instances self.closeAllPerspectives() # Load all perspectives loaded_dict = {} for name, perspective in Perspectives.PERSPECTIVES.items(): try: loaded_perspective = perspective(parent=self) loaded_dict[name] = loaded_perspective except Exception as e: logger.warning(f"Unable to load {name} perspective.\n{e}") self.loadedPerspectives = loaded_dict
[docs] def closeAllPerspectives(self): # Close all perspectives if they are open if isinstance(self.loadedPerspectives, dict): for name, perspective in self.loadedPerspectives.items(): try: perspective.setClosable(True) if self.subwindow in self._workspace.workspace.subWindowList(): self._workspace.workspace.removeSubWindow(self.subwindow) perspective.close() except Exception as e: logger.warning(f"Unable to close {name} perspective\n{e}") self.loadedPerspectives = {} self._current_perspective = None
[docs] def addCategories(self): """ Make sure categories.json exists and if not compile it and install in ~/.sasview """ try: from sas.sascalc.fit.models import ModelManager from sas.qtgui.Utilities.CategoryInstaller import CategoryInstaller model_list = ModelManager().cat_model_list() CategoryInstaller.check_install(model_list=model_list) except Exception: import traceback logger.error("%s: could not load SasView models") logger.error(traceback.format_exc())
[docs] def updatePlotItems(self, graphs): """ Wrapper for adding/removing actions in the windows menu """ plot, delete = graphs if not plot.data: return if delete: self.removePlotItemsInWindowsMenu(plot) else: self.addPlotItemsInWindowsMenu(plot)
[docs] def addPlotItemsInWindowsMenu(self, plot): """ Dynamically update the QMenu content and assign signals """ if not plot: return name = plot[1].name for action in self._workspace.menuWindow.actions(): if action.text() == name: # action with this name already exists return # create action for this plot action = self._workspace.menuWindow.addAction(name) # connect action to slot action.triggered.connect(lambda chk, item=name: self.plotSelectedSlot(name)) # add action to windows menu self._workspace.menuWindow.addAction(action)
[docs] def plotSelectedSlot(self, plot_name): """ Set focus on the selected plot """ # loop over all visible plots and find the requested plot for plot in PlotHelper.currentPlots(): # take last plot if PlotHelper.plotById(plot).data[-1].name == plot_name: # set focus on the plot # Note: none of the StackOverflow recommended solutions work here! # neither raise_(), nor showNormal() nor setWindowState(Qt.WindowActive) PlotHelper.plotById(plot).showNormal() PlotHelper.plotById(plot).setFocus() return pass
[docs] def removePlotItemsInWindowsMenu(self, plot): """ Dynamically update the QMenu content and disconnect signals """ if not plot: # watch out for quick plots return name = plot.data[-1].name # loop over actions for action in self._workspace.menuWindow.actions(): if action.text() == name: # disconnect action to slot action.triggered.disconnect() self._workspace.menuWindow.removeAction(action) return pass
[docs] def updateLogContextMenus(self, visible=False): """ Modify the View/Data Explorer menu item text on widget visibility """ if visible: self._workspace.actionHide_LogExplorer.setText("Hide Log Explorer") else: self._workspace.actionHide_LogExplorer.setText("Show Log Explorer")
[docs] def updateContextMenus(self, visible=False): """ Modify the View/Data Explorer menu item text on widget visibility """ if visible: self._workspace.actionHide_DataExplorer.setText("Hide Data Explorer") else: self._workspace.actionHide_DataExplorer.setText("Show Data Explorer")
[docs] def statusBarSetup(self): """ Define the status bar. | <message label> .... | Progress Bar | Progress bar invisible until explicitly shown """ self.progress = QProgressBar() self._workspace.statusbar.setSizeGripEnabled(False) self.statusLabel = QLabel() self.statusLabel.setText("Welcome to SasView") self._workspace.statusbar.addPermanentWidget(self.statusLabel, 1) self._workspace.statusbar.addPermanentWidget(self.progress, stretch=0) self.progress.setRange(0, 100) self.progress.setValue(0) self.progress.setTextVisible(True) self.progress.setVisible(False)
[docs] def fileWasRead(self, data): """ Callback for fileDataReceivedSignal """ pass
[docs] def showHelp(self, url): """ Open a local url in the default browser """ GuiUtils.showHelp(url)
[docs] def workspace(self): """ Accessor for the main window workspace """ return self._workspace.workspace
[docs] def perspectiveChanged(self, perspective_name): """ Respond to change of the perspective signal """ # Remove the previous perspective from the window self.clearPerspectiveMenubarOptions(self._current_perspective) if self._current_perspective: # Remove perspective and store in Perspective dictionary self.loadedPerspectives[ self._current_perspective.name] = self._current_perspective self._workspace.workspace.removeSubWindow(self._current_perspective) self._workspace.workspace.removeSubWindow(self.subwindow) # Get new perspective self._current_perspective = self.loadedPerspectives[str(perspective_name)] self.setupPerspectiveMenubarOptions(self._current_perspective) self.subwindow = self._workspace.workspace.addSubWindow( self._current_perspective) # Resize to the workspace height workspace_height = self._workspace.workspace.sizeHint().height() perspective_size = self._current_perspective.sizeHint() perspective_width = perspective_size.width() self._current_perspective.resize(perspective_width, workspace_height-10) self._current_perspective.show()
[docs] def updatePerspective(self, data): """ Update perspective with data sent. """ assert isinstance(data, list) if self._current_perspective is not None: self._current_perspective.setData(list(data.values())) else: msg = "No perspective is currently active." logging.info(msg)
[docs] def communicator(self): """ Accessor for the communicator """ return self.communicate
[docs] def perspective(self): """ Accessor for the perspective """ return self._current_perspective
[docs] def updateProgressBar(self, value): """ Update progress bar with the required value (0-100) """ assert -1 <= value <= 100 if value == -1: self.progress.setVisible(False) return if not self.progress.isVisible(): self.progress.setTextVisible(True) self.progress.setVisible(True) self.progress.setValue(value)
[docs] def updateStatusBar(self, text): """ Set the status bar text """ self.statusLabel.setText(text)
[docs] def appendLog(self, msg): """Appends a message to the list widget in the Log Explorer. Use this instead of listWidget.insertPlainText() to facilitate auto-scrolling""" self.listWidget.append(msg.strip())
[docs] def createGuiData(self, item, p_file=None): """ Access the Data1D -> plottable Data1D conversion """ return self._data_manager.create_gui_data(item, p_file)
[docs] def setData(self, data): """ Sends data to current perspective """ if self._current_perspective is not None: self._current_perspective.setData(list(data.values())) else: msg = "Guiframe does not have a current perspective" logging.info(msg)
[docs] def findItemFromFilename(self, filename): """ Queries the data explorer for the index corresponding to the filename within """ return self.filesWidget.itemFromFilename(filename)
[docs] def quitApplication(self): """ Close the reactor and exit nicely. """ # Display confirmation messagebox quit_msg = "Are you sure you want to exit the application?" reply = QMessageBox.question( self._parent, 'Information', quit_msg, QMessageBox.Yes, QMessageBox.No) # Exit if yes if reply == QMessageBox.Yes: # save the paths etc. self.saveCustomConfig() reactor.callFromThread(reactor.stop) return True return False
[docs] def checkUpdate(self): """ Check with the deployment server whether a new version of the application is available. A thread is started for the connecting with the server. The thread calls a call-back method when the current version number has been obtained. """ version_info = {"version": "0.0.0"} c = ConnectionProxy(LocalConfig.__update_URL__, LocalConfig.UPDATE_TIMEOUT) response = c.connect() if response is None: return try: content = response.read().strip() logging.info("Connected to www.sasview.org. Latest version: %s" % (content)) version_info = json.loads(content) self.processVersion(version_info) except ValueError as ex: logging.info("Failed to connect to www.sasview.org:", ex)
[docs] def processVersion(self, version_info): """ Call-back method for the process of checking for updates. This methods is called by a VersionThread object once the current version number has been obtained. If the check is being done in the background, the user will not be notified unless there's an update. :param version: version string """ try: version = version_info["version"] if version == "0.0.0": msg = "Could not connect to the application server." msg += " Please try again later." self.communicate.statusBarUpdateSignal.emit(msg) elif version.__gt__(LocalConfig.__version__): msg = "Version %s is available! " % str(version) if "download_url" in version_info: webbrowser.open(version_info["download_url"]) else: webbrowser.open(LocalConfig.__download_page__) self.communicate.statusBarUpdateSignal.emit(msg) else: msg = "You have the latest version" msg += " of %s" % str(LocalConfig.__appname__) self.communicate.statusBarUpdateSignal.emit(msg) except: msg = "guiframe: could not get latest application" msg += " version number\n %s" % sys.exc_info()[1] logging.error(msg) msg = "Could not connect to the application server." msg += " Please try again later." self.communicate.statusBarUpdateSignal.emit(msg)
[docs] def actionWelcome(self): """ Show the Welcome panel """ self.welcomePanel = WelcomePanel() self._workspace.workspace.addSubWindow(self.welcomePanel) self.welcomePanel.show()
[docs] def showWelcomeMessage(self): """ Show the Welcome panel, when required """ # Assure the welcome screen is requested show_welcome_widget = True custom_config = get_custom_config() if hasattr(custom_config, "WELCOME_PANEL_SHOW"): if isinstance(custom_config.WELCOME_PANEL_SHOW, bool): show_welcome_widget = custom_config.WELCOME_PANEL_SHOW else: logging.warning("WELCOME_PANEL_SHOW has invalid value in custom_config.py") if show_welcome_widget: self.actionWelcome()
[docs] def addCallbacks(self): """ Method defining all signal connections for the gui manager """ self.communicate = GuiUtils.Communicate() self.communicate.fileDataReceivedSignal.connect(self.fileWasRead) self.communicate.statusBarUpdateSignal.connect(self.updateStatusBar) self.communicate.updatePerspectiveWithDataSignal.connect(self.updatePerspective) self.communicate.progressBarUpdateSignal.connect(self.updateProgressBar) self.communicate.perspectiveChangedSignal.connect(self.perspectiveChanged) self.communicate.updateTheoryFromPerspectiveSignal.connect(self.updateTheoryFromPerspective) self.communicate.deleteIntermediateTheoryPlotsSignal.connect(self.deleteIntermediateTheoryPlotsByModelID) self.communicate.plotRequestedSignal.connect(self.showPlot) self.communicate.plotFromNameSignal.connect(self.showPlotFromName) self.communicate.updateModelFromDataOperationPanelSignal.connect(self.updateModelFromDataOperationPanel) self.communicate.activeGraphsSignal.connect(self.updatePlotItems)
[docs] def addTriggers(self): """ Trigger definitions for all menu/toolbar actions. """ # disable not yet fully implemented actions self._workspace.actionUndo.setVisible(False) self._workspace.actionRedo.setVisible(False) self._workspace.actionReset.setVisible(False) self._workspace.actionStartup_Settings.setVisible(False) #self._workspace.actionImage_Viewer.setVisible(False) self._workspace.actionCombine_Batch_Fit.setVisible(False) # orientation viewer set to invisible SASVIEW-1132 self._workspace.actionOrientation_Viewer.setVisible(False) # File self._workspace.actionLoadData.triggered.connect(self.actionLoadData) self._workspace.actionLoad_Data_Folder.triggered.connect(self.actionLoad_Data_Folder) self._workspace.actionOpen_Project.triggered.connect(self.actionOpen_Project) self._workspace.actionOpen_Analysis.triggered.connect(self.actionOpen_Analysis) self._workspace.actionSave.triggered.connect(self.actionSave_Project) self._workspace.actionSave_Analysis.triggered.connect(self.actionSave_Analysis) self._workspace.actionQuit.triggered.connect(self.actionQuit) # Edit self._workspace.actionUndo.triggered.connect(self.actionUndo) self._workspace.actionRedo.triggered.connect(self.actionRedo) self._workspace.actionCopy.triggered.connect(self.actionCopy) self._workspace.actionPaste.triggered.connect(self.actionPaste) self._workspace.actionReport.triggered.connect(self.actionReport) self._workspace.actionReset.triggered.connect(self.actionReset) self._workspace.actionExcel.triggered.connect(self.actionExcel) self._workspace.actionLatex.triggered.connect(self.actionLatex) self._workspace.actionSaveParamsAs.triggered.connect(self.actionSaveParamsAs) # View self._workspace.actionShow_Grid_Window.triggered.connect(self.actionShow_Grid_Window) self._workspace.actionHide_Toolbar.triggered.connect(self.actionHide_Toolbar) self._workspace.actionStartup_Settings.triggered.connect(self.actionStartup_Settings) self._workspace.actionCategory_Manager.triggered.connect(self.actionCategory_Manager) self._workspace.actionHide_DataExplorer.triggered.connect(self.actionHide_DataExplorer) self._workspace.actionHide_LogExplorer.triggered.connect(self.actionHide_LogExplorer) # Tools self._workspace.actionData_Operation.triggered.connect(self.actionData_Operation) self._workspace.actionSLD_Calculator.triggered.connect(self.actionSLD_Calculator) self._workspace.actionDensity_Volume_Calculator.triggered.connect(self.actionDensity_Volume_Calculator) self._workspace.actionKeissig_Calculator.triggered.connect(self.actionKiessig_Calculator) #self._workspace.actionKIESSING_Calculator.triggered.connect(self.actionKIESSING_Calculator) self._workspace.actionSlit_Size_Calculator.triggered.connect(self.actionSlit_Size_Calculator) self._workspace.actionSAS_Resolution_Estimator.triggered.connect(self.actionSAS_Resolution_Estimator) self._workspace.actionGeneric_Scattering_Calculator.triggered.connect(self.actionGeneric_Scattering_Calculator) self._workspace.actionPython_Shell_Editor.triggered.connect(self.actionPython_Shell_Editor) self._workspace.actionImage_Viewer.triggered.connect(self.actionImage_Viewer) self._workspace.actionFile_Converter.triggered.connect(self.actionFile_Converter) self._workspace.actionOrientation_Viewer.triggered.connect(self.actionOrientation_Viewer) self._workspace.actionFreeze_Theory.triggered.connect(self.actionFreeze_Theory) # Fitting self._workspace.actionNew_Fit_Page.triggered.connect(self.actionNew_Fit_Page) self._workspace.actionConstrained_Fit.triggered.connect(self.actionConstrained_Fit) self._workspace.actionCombine_Batch_Fit.triggered.connect(self.actionCombine_Batch_Fit) self._workspace.actionFit_Options.triggered.connect(self.actionFit_Options) self._workspace.actionGPU_Options.triggered.connect(self.actionGPU_Options) self._workspace.actionFit_Results.triggered.connect(self.actionFit_Results) self._workspace.actionAdd_Custom_Model.triggered.connect(self.actionAdd_Custom_Model) self._workspace.actionEdit_Custom_Model.triggered.connect(self.actionEdit_Custom_Model) self._workspace.actionManage_Custom_Models.triggered.connect(self.actionManage_Custom_Models) self._workspace.actionAddMult_Models.triggered.connect(self.actionAddMult_Models) self._workspace.actionEditMask.triggered.connect(self.actionEditMask) # Window self._workspace.actionCascade.triggered.connect(self.actionCascade) self._workspace.actionTile.triggered.connect(self.actionTile) self._workspace.actionArrange_Icons.triggered.connect(self.actionArrange_Icons) self._workspace.actionNext.triggered.connect(self.actionNext) self._workspace.actionPrevious.triggered.connect(self.actionPrevious) self._workspace.actionMinimizePlots.triggered.connect(self.actionMinimizePlots) self._workspace.actionClosePlots.triggered.connect(self.actionClosePlots) # Analysis self._workspace.actionFitting.triggered.connect(self.actionFitting) self._workspace.actionInversion.triggered.connect(self.actionInversion) self._workspace.actionInvariant.triggered.connect(self.actionInvariant) self._workspace.actionCorfunc.triggered.connect(self.actionCorfunc) # Help self._workspace.actionDocumentation.triggered.connect(self.actionDocumentation) self._workspace.actionTutorial.triggered.connect(self.actionTutorial) self._workspace.actionModel_Marketplace.triggered.connect(self.actionMarketplace) self._workspace.actionAcknowledge.triggered.connect(self.actionAcknowledge) self._workspace.actionAbout.triggered.connect(self.actionAbout) self._workspace.actionWelcomeWidget.triggered.connect(self.actionWelcome) self._workspace.actionCheck_for_update.triggered.connect(self.actionCheck_for_update) self.communicate.sendDataToGridSignal.connect(self.showBatchOutput) self.communicate.resultPlotUpdateSignal.connect(self.showFitResults)
#============ FILE =================
[docs] def actionLoadData(self): """ Menu File/Load Data File(s) """ self.filesWidget.loadFile()
[docs] def actionLoad_Data_Folder(self): """ Menu File/Load Data Folder """ self.filesWidget.loadFolder()
[docs] def actionOpen_Project(self): """ Menu Open Project """ self.filesWidget.loadProject()
[docs] def actionOpen_Analysis(self): """ """ self.filesWidget.loadAnalysis() pass
[docs] def actionSave_Project(self): """ Menu Save Project """ filename = self.filesWidget.saveProject() if not filename: return # datasets all_data = self.filesWidget.getSerializedData() final_data = {} for id, data in all_data.items(): final_data[id] = {'fit_data': data} # Save from all serializable perspectives # Analysis should return {data-id: serialized-state} for name, per in self.loadedPerspectives.items(): if hasattr(per, 'isSerializable') and per.isSerializable(): analysis = per.serializeAll() for key, value in analysis.items(): if key in final_data: final_data[key].update(value) elif 'cs_tab' in key: final_data[key] = value final_data['is_batch'] = analysis.get('is_batch', 'False') final_data['batch_grid'] = self.grid_window.data_dict final_data['visible_perspective'] = self._current_perspective.name with open(filename, 'w') as outfile: GuiUtils.saveData(outfile, final_data)
[docs] def actionSave_Analysis(self): """ Menu File/Save Analysis """ per = self.perspective() if not hasattr(per, 'isSerializable') or not per.isSerializable: return # get fit page serialization all_data = self.filesWidget.getSerializedData() analysis = {} state = per.serializeCurrentPage() for id, params in state.items(): if id in all_data: analysis[id] = {'fit_data': all_data[id]} analysis[id].update(params) if len(analysis) > 0: tab_id = 1 if not hasattr(per, 'currentTab') else per.currentTab.tab_id self.filesWidget.saveAnalysis(analysis, tab_id, per.ext) else: logger.warning('No analysis was available to be saved.')
[docs] def actionQuit(self): """ Close the reactor, exit the application. """ self.quitApplication()
#============ EDIT =================
[docs] def actionUndo(self): """ """ print("actionUndo TRIGGERED") pass
[docs] def actionRedo(self): """ """ print("actionRedo TRIGGERED") pass
[docs] def actionCopy(self): """ Send a signal to the fitting perspective so parameters can be saved to the clipboard """ self.communicate.copyFitParamsSignal.emit("") #self._workspace.actionPaste.setEnabled(True) pass
[docs] def actionPaste(self): """ Send a signal to the fitting perspective so parameters from the clipboard can be used to modify the fit state """ self.communicate.pasteFitParamsSignal.emit()
[docs] def actionReport(self): """ Show the Fit Report dialog. """ report_list = None if getattr(self._current_perspective, "currentTab"): try: report_list = self._current_perspective.currentTab.getReport() except Exception as ex: logging.error("Report generation failed with: " + str(ex)) if report_list is not None: self.report_dialog = ReportDialog(parent=self, report_list=report_list) self.report_dialog.show()
[docs] def actionReset(self): """ """ logging.warning(" *** actionOpen_Analysis logging *******") print("actionReset print TRIGGERED") sys.stderr.write("STDERR - TRIGGERED") pass
[docs] def actionExcel(self): """ Send a signal to the fitting perspective so parameters can be saved to the clipboard """ self.communicate.copyExcelFitParamsSignal.emit("Excel")
[docs] def actionLatex(self): """ Send a signal to the fitting perspective so parameters can be saved to the clipboard """ self.communicate.copyLatexFitParamsSignal.emit("Latex")
[docs] def actionSaveParamsAs(self): """ Menu Save Params """ self.communicate.SaveFitParamsSignal.emit("Save")
#============ VIEW =================
[docs] def actionShow_Grid_Window(self): """ """ self.showBatchOutput(None)
[docs] def showBatchOutput(self, output_data): """ Display/redisplay the batch fit viewer """ self.grid_subwindow.setVisible(True) self.grid_subwindow.raise_() if output_data: self.grid_window.addFitResults(output_data)
[docs] def actionHide_Toolbar(self): """ Toggle toolbar vsibility """ if self._workspace.toolBar.isVisible(): self._workspace.actionHide_Toolbar.setText("Show Toolbar") self._workspace.toolBar.setVisible(False) else: self._workspace.actionHide_Toolbar.setText("Hide Toolbar") self._workspace.toolBar.setVisible(True) pass
[docs] def actionHide_DataExplorer(self): """ Toggle Data Explorer vsibility """ if self.dockedFilesWidget.isVisible(): self.dockedFilesWidget.setVisible(False) else: self.dockedFilesWidget.setVisible(True) pass
[docs] def actionHide_LogExplorer(self): """ Toggle Data Explorer vsibility """ if self.logDockWidget.isVisible(): self.logDockWidget.setVisible(False) else: self.logDockWidget.setVisible(True) pass
[docs] def actionStartup_Settings(self): """ """ print("actionStartup_Settings TRIGGERED") pass
[docs] def actionCategory_Manager(self): """ """ self.categoryManagerWidget.show()
#============ TOOLS =================
[docs] def actionData_Operation(self): """ """ data, theory = self.filesWidget.getAllFlatData() self.communicate.sendDataToPanelSignal.emit(dict(data, **theory)) self.DataOperation.show()
[docs] def actionSLD_Calculator(self): """ """ self.SLDCalculator.show()
[docs] def actionDensity_Volume_Calculator(self): """ """ self.DVCalculator.show()
[docs] def actionKiessig_Calculator(self): """ """ self.KIESSIGCalculator.show()
[docs] def actionSlit_Size_Calculator(self): """ """ self.SlitSizeCalculator.show()
[docs] def actionSAS_Resolution_Estimator(self): """ """ try: self.ResolutionCalculator.show() except Exception as ex: logging.error(str(ex)) return
[docs] def actionGeneric_Scattering_Calculator(self): """ """ try: self.GENSASCalculator.show() except Exception as ex: logging.error(str(ex)) return
[docs] def actionPython_Shell_Editor(self): """ Display the Jupyter console as a docked widget. """ # Import moved here for startup performance reasons from sas.qtgui.Utilities.IPythonWidget import IPythonWidget terminal = IPythonWidget() # Add the console window as another docked widget self.ipDockWidget = QDockWidget("IPython", self._workspace) self.ipDockWidget.setObjectName("IPythonDockWidget") self.ipDockWidget.setWidget(terminal) self._workspace.addDockWidget(Qt.RightDockWidgetArea, self.ipDockWidget)
[docs] def actionFreeze_Theory(self): """ Convert a child index with data into a separate top level dataset """ self.filesWidget.freezeCheckedData()
[docs] def actionOrientation_Viewer(self): """ Make sasmodels orientation & jitter viewer available """ from sasmodels.jitter import run as orientation_run try: orientation_run() except Exception as ex: logging.error(str(ex))
[docs] def actionImage_Viewer(self): """ """ try: self.image_viewer = ImageViewer(self) if sys.platform == "darwin": self.image_viewer.menubar.setNativeMenuBar(False) self.image_viewer.show() except Exception as ex: logging.error(str(ex)) return
[docs] def actionFile_Converter(self): """ Shows the File Converter widget. """ try: self.FileConverter.show() except Exception as ex: logging.error(str(ex)) return
#============ FITTING =================
[docs] def actionNew_Fit_Page(self): """ Add a new, empty Fit page in the fitting perspective. """ # Make sure the perspective is correct per = self.perspective() if not isinstance(per, FittingWindow): return per.addFit(None)
[docs] def actionConstrained_Fit(self): """ Add a new Constrained and Simult. Fit page in the fitting perspective. """ per = self.perspective() if not isinstance(per, FittingWindow): return per.addConstraintTab()
[docs] def actionCombine_Batch_Fit(self): """ """ print("actionCombine_Batch_Fit TRIGGERED") pass
[docs] def actionFit_Options(self): """ """ if getattr(self._current_perspective, "fit_options_widget"): self._current_perspective.fit_options_widget.show() pass
[docs] def actionGPU_Options(self): """ Load the OpenCL selection dialog if the fitting perspective is active """ if hasattr(self._current_perspective, "gpu_options_widget"): self._current_perspective.gpu_options_widget.show() pass
[docs] def actionFit_Results(self): """ """ self.showFitResults(None)
[docs] def showFitResults(self, output_data): """ Show bumps convergence plots """ self.results_frame.setVisible(True) if output_data: self.results_panel.onPlotResults(output_data, optimizer=self.perspective().optimizer)
[docs] def actionAdd_Custom_Model(self): """ """ self.model_editor = TabbedModelEditor(self) self.model_editor.show()
[docs] def actionEdit_Custom_Model(self): """ """ self.model_editor = TabbedModelEditor(self, edit_only=True) self.model_editor.show()
[docs] def actionManage_Custom_Models(self): """ """ self.model_manager = PluginManager(self) self.model_manager.show()
[docs] def actionAddMult_Models(self): """ """ # Add Simple Add/Multiply Editor self.add_mult_editor = AddMultEditor(self) self.add_mult_editor.show()
[docs] def actionEditMask(self): self.communicate.extMaskEditorSignal.emit()
#============ ANALYSIS =================
[docs] def actionFitting(self): """ Change to the Fitting perspective """ self.perspectiveChanged("Fitting") # Notify other widgets self.filesWidget.onAnalysisUpdate("Fitting")
[docs] def actionInversion(self): """ Change to the Inversion perspective """ self.perspectiveChanged("Inversion") self.filesWidget.onAnalysisUpdate("Inversion")
[docs] def actionInvariant(self): """ Change to the Invariant perspective """ self.perspectiveChanged("Invariant") self.filesWidget.onAnalysisUpdate("Invariant")
[docs] def actionCorfunc(self): """ Change to the Corfunc perspective """ self.perspectiveChanged("Corfunc") self.filesWidget.onAnalysisUpdate("Corfunc")
#============ WINDOW =================
[docs] def actionCascade(self): """ Arranges all the child windows in a cascade pattern. """ self._workspace.workspace.cascadeSubWindows()
[docs] def actionTile(self): """ Tile workspace windows """ self._workspace.workspace.tileSubWindows()
[docs] def actionArrange_Icons(self): """ Arranges all iconified windows at the bottom of the workspace """ self._workspace.workspace.arrangeIcons()
[docs] def actionNext(self): """ Gives the input focus to the next window in the list of child windows. """ self._workspace.workspace.activateNextSubWindow()
[docs] def actionPrevious(self): """ Gives the input focus to the previous window in the list of child windows. """ self._workspace.workspace.activatePreviousSubWindow()
[docs] def actionClosePlots(self): """ Closes all Plotters and Plotter2Ds. """ self.filesWidget.closeAllPlots() pass
[docs] def actionMinimizePlots(self): """ Minimizes all Plotters and Plotter2Ds. """ self.filesWidget.minimizeAllPlots() pass
#============ HELP =================
[docs] def actionDocumentation(self): """ Display the documentation TODO: use QNetworkAccessManager to assure _helpLocation is valid """ helpfile = "/index.html" self.showHelp(helpfile)
[docs] def actionTutorial(self): """ Open the page with tutorial PDF links """ helpfile = "/user/tutorial.html" self.showHelp(helpfile)
[docs] def actionAcknowledge(self): """ Open the Acknowledgements widget """ self.ackWidget.show()
[docs] def actionMarketplace(self): """ Open the marketplace link in default browser """ url = LocalConfig.MARKETPLACE_URL webbrowser.open_new(url)
[docs] def actionAbout(self): """ Open the About box """ # Update the about box with current version and stuff # TODO: proper sizing self.aboutWidget.show()
[docs] def actionCheck_for_update(self): """ Menu Help/Check for Update """ self.checkUpdate()
[docs] def updateTheoryFromPerspective(self, index): """ Catch the theory update signal from a perspective Send the request to the DataExplorer for updating the theory model. """ item = self.filesWidget.updateTheoryFromPerspective(index) # Now notify the perspective that the item was/wasn't replaced per = self.perspective() if not isinstance(per, FittingWindow): # currently only fitting supports generation of theories. return per.currentTab.setTheoryItem(item)
[docs] def deleteIntermediateTheoryPlotsByModelID(self, model_id): """ Catch the signal to delete items in the Theory item model which correspond to a model ID. Send the request to the DataExplorer for updating the theory model. """ self.filesWidget.deleteIntermediateTheoryPlotsByModelID(model_id)
[docs] def updateModelFromDataOperationPanel(self, new_item, new_datalist_item): """ :param new_item: item to be added to list of loaded files :param new_datalist_item: """ if not isinstance(new_item, QStandardItem) or \ not isinstance(new_datalist_item, dict): msg = "Wrong data type returned from calculations." raise AttributeError(msg) self.filesWidget.model.appendRow(new_item) self._data_manager.add_data(new_datalist_item)
[docs] def showPlotFromName(self, name): """ Pass the show plot request to the data explorer """ if hasattr(self, "filesWidget"): self.filesWidget.displayDataByName(name=name, is_data=True)
[docs] def showPlot(self, plot, id): """ Pass the show plot request to the data explorer """ if hasattr(self, "filesWidget"): self.filesWidget.displayData(plot, id) # update windows menu self.addPlotItemsInWindowsMenu(plot)
[docs] def uncheckAllMenuItems(self, menuObject): """ Uncheck all options in a given menu """ menuObjects = menuObject.actions() for menuItem in menuObjects: menuItem.setChecked(False)
[docs] def checkAnalysisOption(self, analysisMenuOption): """ Unchecks all the items in the analysis menu and checks the item passed """ self.uncheckAllMenuItems(self._workspace.menuAnalysis) analysisMenuOption.setChecked(True)
[docs] def clearPerspectiveMenubarOptions(self, perspective): """ When closing a perspective, clears the menu bar """ for menuItem in self._workspace.menuAnalysis.actions(): menuItem.setChecked(False) if isinstance(self._current_perspective, Perspectives.PERSPECTIVES["Fitting"]): self._workspace.menubar.removeAction(self._workspace.menuFitting.menuAction())
[docs] def setupPerspectiveMenubarOptions(self, perspective): """ When setting a perspective, sets up the menu bar """ self._workspace.actionReport.setEnabled(False) self._workspace.actionOpen_Analysis.setEnabled(False) self._workspace.actionSave_Analysis.setEnabled(False) if hasattr(perspective, 'isSerializable') and perspective.isSerializable(): self._workspace.actionOpen_Analysis.setEnabled(True) self._workspace.actionSave_Analysis.setEnabled(True) if isinstance(perspective, Perspectives.PERSPECTIVES["Fitting"]): self.checkAnalysisOption(self._workspace.actionFitting) # Put the fitting menu back in # This is a bit involved but it is needed to preserve the menu ordering self._workspace.menubar.removeAction(self._workspace.menuWindow.menuAction()) self._workspace.menubar.removeAction(self._workspace.menuHelp.menuAction()) self._workspace.menubar.addAction(self._workspace.menuFitting.menuAction()) self._workspace.menubar.addAction(self._workspace.menuWindow.menuAction()) self._workspace.menubar.addAction(self._workspace.menuHelp.menuAction()) self._workspace.actionReport.setEnabled(True) elif isinstance(perspective, Perspectives.PERSPECTIVES["Invariant"]): self.checkAnalysisOption(self._workspace.actionInvariant) elif isinstance(perspective, Perspectives.PERSPECTIVES["Inversion"]): self.checkAnalysisOption(self._workspace.actionInversion) elif isinstance(perspective, Perspectives.PERSPECTIVES["Corfunc"]): self.checkAnalysisOption(self._workspace.actionCorfunc)
[docs] def saveCustomConfig(self): """ Save the config file based on current session values """ # Load the current file config_content = GuiUtils.custom_config changed = self.customSavePaths(config_content) changed = changed or self.customSaveOpenCL(config_content) if changed: self.writeCustomConfig(config_content)
[docs] def customSavePaths(self, config_content): """ Update the config module with current session paths Returns True if update was done, False, otherwise """ changed = False # Find load path open_path = GuiUtils.DEFAULT_OPEN_FOLDER defined_path = self.filesWidget.default_load_location if open_path != defined_path: # Replace the load path config_content.DEFAULT_OPEN_FOLDER = defined_path changed = True return changed
[docs] def customSaveOpenCL(self, config_content): """ Update the config module with current session OpenCL choice Returns True if update was done, False, otherwise """ changed = False # Find load path file_value = GuiUtils.SAS_OPENCL session_value = os.environ.get("SAS_OPENCL", "") if file_value != session_value: # Replace the load path config_content.SAS_OPENCL = session_value changed = True return changed
[docs] def writeCustomConfig(self, config): """ Write custom configuration """ from sas import make_custom_config_path path = make_custom_config_path() # Just clobber the file - we already have its content read in with open(path, 'w') as out_f: out_f.write("#Application appearance custom configuration\n") for key, item in config.__dict__.items(): if key[:2] == "__": continue if isinstance(item, str): item = '"' + item + '"' out_f.write("%s = %s\n" % (key, str(item))) pass # debugger anchor